267 lines
9.2 KiB
Go
267 lines
9.2 KiB
Go
package quic
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import (
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"bytes"
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"errors"
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"fmt"
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"github.com/lucas-clemente/quic-go/ackhandler"
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"github.com/lucas-clemente/quic-go/frames"
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"github.com/lucas-clemente/quic-go/handshake"
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"github.com/lucas-clemente/quic-go/protocol"
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"github.com/lucas-clemente/quic-go/qerr"
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)
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type packedPacket struct {
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number protocol.PacketNumber
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raw []byte
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frames []frames.Frame
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encryptionLevel protocol.EncryptionLevel
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}
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type packetPacker struct {
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connectionID protocol.ConnectionID
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perspective protocol.Perspective
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version protocol.VersionNumber
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cryptoSetup handshake.CryptoSetup
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// as long as packets are not sent with forward-secure encryption, we limit the MaxPacketSize such that they can be retransmitted as a whole
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isForwardSecure bool
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packetNumberGenerator *packetNumberGenerator
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connectionParameters handshake.ConnectionParametersManager
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streamFramer *streamFramer
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controlFrames []frames.Frame
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}
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func newPacketPacker(connectionID protocol.ConnectionID, cryptoSetup handshake.CryptoSetup, connectionParameters handshake.ConnectionParametersManager, streamFramer *streamFramer, perspective protocol.Perspective, version protocol.VersionNumber) *packetPacker {
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return &packetPacker{
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cryptoSetup: cryptoSetup,
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connectionID: connectionID,
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connectionParameters: connectionParameters,
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perspective: perspective,
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version: version,
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streamFramer: streamFramer,
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packetNumberGenerator: newPacketNumberGenerator(protocol.SkipPacketAveragePeriodLength),
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}
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}
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// PackConnectionClose packs a packet that ONLY contains a ConnectionCloseFrame
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func (p *packetPacker) PackConnectionClose(ccf *frames.ConnectionCloseFrame, leastUnacked protocol.PacketNumber) (*packedPacket, error) {
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// in case the connection is closed, all queued control frames aren't of any use anymore
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// discard them and queue the ConnectionCloseFrame
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p.controlFrames = []frames.Frame{ccf}
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return p.packPacket(nil, leastUnacked, nil)
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}
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// RetransmitNonForwardSecurePacket retransmits a handshake packet, that was sent with less than forward-secure encryption
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func (p *packetPacker) RetransmitNonForwardSecurePacket(stopWaitingFrame *frames.StopWaitingFrame, packet *ackhandler.Packet) (*packedPacket, error) {
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if packet.EncryptionLevel == protocol.EncryptionForwardSecure {
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return nil, errors.New("PacketPacker BUG: forward-secure encrypted handshake packets don't need special treatment")
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}
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if stopWaitingFrame == nil {
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return nil, errors.New("PacketPacker BUG: Handshake retransmissions must contain a StopWaitingFrame")
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}
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return p.packPacket(stopWaitingFrame, 0, packet)
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}
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// PackPacket packs a new packet
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// the stopWaitingFrame is *guaranteed* to be included in the next packet
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// the other controlFrames are sent in the next packet, but might be queued and sent in the next packet if the packet would overflow MaxPacketSize otherwise
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func (p *packetPacker) PackPacket(stopWaitingFrame *frames.StopWaitingFrame, controlFrames []frames.Frame, leastUnacked protocol.PacketNumber) (*packedPacket, error) {
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p.controlFrames = append(p.controlFrames, controlFrames...)
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return p.packPacket(stopWaitingFrame, leastUnacked, nil)
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}
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func (p *packetPacker) packPacket(stopWaitingFrame *frames.StopWaitingFrame, leastUnacked protocol.PacketNumber, handshakePacketToRetransmit *ackhandler.Packet) (*packedPacket, error) {
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// handshakePacketToRetransmit is only set for handshake retransmissions
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isHandshakeRetransmission := (handshakePacketToRetransmit != nil)
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var sealFunc handshake.Sealer
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var encLevel protocol.EncryptionLevel
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if isHandshakeRetransmission {
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var err error
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encLevel = handshakePacketToRetransmit.EncryptionLevel
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sealFunc, err = p.cryptoSetup.GetSealerWithEncryptionLevel(encLevel)
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if err != nil {
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return nil, err
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}
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} else {
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encLevel, sealFunc = p.cryptoSetup.GetSealer()
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}
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currentPacketNumber := p.packetNumberGenerator.Peek()
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packetNumberLen := protocol.GetPacketNumberLengthForPublicHeader(currentPacketNumber, leastUnacked)
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responsePublicHeader := &PublicHeader{
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ConnectionID: p.connectionID,
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PacketNumber: currentPacketNumber,
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PacketNumberLen: packetNumberLen,
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TruncateConnectionID: p.connectionParameters.TruncateConnectionID(),
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}
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if p.perspective == protocol.PerspectiveServer && encLevel == protocol.EncryptionSecure {
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responsePublicHeader.DiversificationNonce = p.cryptoSetup.DiversificationNonce()
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}
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if p.perspective == protocol.PerspectiveClient && encLevel != protocol.EncryptionForwardSecure {
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responsePublicHeader.VersionFlag = true
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responsePublicHeader.VersionNumber = p.version
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}
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publicHeaderLength, err := responsePublicHeader.GetLength(p.perspective)
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if err != nil {
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return nil, err
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}
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if stopWaitingFrame != nil {
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stopWaitingFrame.PacketNumber = currentPacketNumber
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stopWaitingFrame.PacketNumberLen = packetNumberLen
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}
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// we're packing a ConnectionClose, don't add any StreamFrames
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var isConnectionClose bool
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if len(p.controlFrames) == 1 {
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_, isConnectionClose = p.controlFrames[0].(*frames.ConnectionCloseFrame)
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}
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var payloadFrames []frames.Frame
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if isHandshakeRetransmission {
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payloadFrames = append(payloadFrames, stopWaitingFrame)
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// don't retransmit Acks and StopWaitings
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for _, f := range handshakePacketToRetransmit.Frames {
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switch f.(type) {
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case *frames.AckFrame:
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continue
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case *frames.StopWaitingFrame:
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continue
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}
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payloadFrames = append(payloadFrames, f)
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}
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} else if isConnectionClose {
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payloadFrames = []frames.Frame{p.controlFrames[0]}
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} else {
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maxSize := protocol.MaxFrameAndPublicHeaderSize - publicHeaderLength
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if !p.isForwardSecure {
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maxSize -= protocol.NonForwardSecurePacketSizeReduction
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}
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payloadFrames, err = p.composeNextPacket(stopWaitingFrame, maxSize)
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if err != nil {
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return nil, err
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}
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}
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// Check if we have enough frames to send
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if len(payloadFrames) == 0 {
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return nil, nil
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}
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// Don't send out packets that only contain a StopWaitingFrame
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if len(payloadFrames) == 1 && stopWaitingFrame != nil {
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return nil, nil
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}
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raw := getPacketBuffer()
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buffer := bytes.NewBuffer(raw)
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if err = responsePublicHeader.Write(buffer, p.version, p.perspective); err != nil {
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return nil, err
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}
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payloadStartIndex := buffer.Len()
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var hasNonCryptoStreamData bool // does this frame contain any stream frame on a stream > 1
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for _, frame := range payloadFrames {
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if sf, ok := frame.(*frames.StreamFrame); ok && sf.StreamID != 1 {
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hasNonCryptoStreamData = true
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}
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err = frame.Write(buffer, p.version)
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if err != nil {
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return nil, err
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}
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}
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if protocol.ByteCount(buffer.Len()+12) > protocol.MaxPacketSize {
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return nil, errors.New("PacketPacker BUG: packet too large")
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}
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raw = raw[0:buffer.Len()]
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_ = sealFunc(raw[payloadStartIndex:payloadStartIndex], raw[payloadStartIndex:], currentPacketNumber, raw[:payloadStartIndex])
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raw = raw[0 : buffer.Len()+12]
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if hasNonCryptoStreamData && encLevel <= protocol.EncryptionUnencrypted {
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return nil, qerr.AttemptToSendUnencryptedStreamData
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}
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num := p.packetNumberGenerator.Pop()
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if num != currentPacketNumber {
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return nil, errors.New("PacketPacker BUG: Peeked and Popped packet numbers do not match.")
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}
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return &packedPacket{
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number: currentPacketNumber,
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raw: raw,
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frames: payloadFrames,
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encryptionLevel: encLevel,
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}, nil
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}
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func (p *packetPacker) composeNextPacket(stopWaitingFrame *frames.StopWaitingFrame, maxFrameSize protocol.ByteCount) ([]frames.Frame, error) {
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var payloadLength protocol.ByteCount
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var payloadFrames []frames.Frame
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if stopWaitingFrame != nil {
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payloadFrames = append(payloadFrames, stopWaitingFrame)
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minLength, err := stopWaitingFrame.MinLength(p.version)
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if err != nil {
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return nil, err
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}
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payloadLength += minLength
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}
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for len(p.controlFrames) > 0 {
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frame := p.controlFrames[len(p.controlFrames)-1]
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minLength, _ := frame.MinLength(p.version) // controlFrames does not contain any StopWaitingFrames. So it will *never* return an error
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if payloadLength+minLength > maxFrameSize {
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break
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}
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payloadFrames = append(payloadFrames, frame)
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payloadLength += minLength
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p.controlFrames = p.controlFrames[:len(p.controlFrames)-1]
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}
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if payloadLength > maxFrameSize {
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return nil, fmt.Errorf("Packet Packer BUG: packet payload (%d) too large (%d)", payloadLength, maxFrameSize)
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}
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// temporarily increase the maxFrameSize by 2 bytes
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// this leads to a properly sized packet in all cases, since we do all the packet length calculations with StreamFrames that have the DataLen set
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// however, for the last StreamFrame in the packet, we can omit the DataLen, thus saving 2 bytes and yielding a packet of exactly the correct size
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maxFrameSize += 2
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fs := p.streamFramer.PopStreamFrames(maxFrameSize - payloadLength)
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if len(fs) != 0 {
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fs[len(fs)-1].DataLenPresent = false
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}
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// TODO: Simplify
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for _, f := range fs {
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payloadFrames = append(payloadFrames, f)
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}
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for b := p.streamFramer.PopBlockedFrame(); b != nil; b = p.streamFramer.PopBlockedFrame() {
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p.controlFrames = append(p.controlFrames, b)
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}
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return payloadFrames, nil
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}
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func (p *packetPacker) QueueControlFrameForNextPacket(f frames.Frame) {
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p.controlFrames = append(p.controlFrames, f)
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}
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func (p *packetPacker) SetForwardSecure() {
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p.isForwardSecure = true
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}
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